Conservation implications of recent advances in biodiversity–functioning research
Conservation implications of recent advances in biodiversity–functioning research
Studies have shown that increasing diversity has a positive influence on many ecosystem functions and services, for example, biomass productivity. However, most diversity–functioning studies have derived their conclusions (1) from considering only random species assemblages, (2) from small spatial scales – often micro- and mesocosm experiments, (3) from studying merely a single trophic level, and (4) studies from a small number of biomes dominate. Critics argue that these studies provide little basis to evaluate the consequences for biodiversity loss in the real world. Here we re-consider the latest research focusing on each limitation in turn to highlight the possible lessons for real-world conservation from recent biodiversity–ecosystem function (BEF) research. Tentative general lessons from recent research include: (1) the need to urgently forestall human-induced extinction (i.e., non-random extinction) over large areas, in order to avert large negative functional consequences which may be more pronounced at larger scales and (2) preserve relatively intact communities because biotic interactions across the multi-trophic levels may have a synergistic contribution to the overall functioning of a system. However, considering the complexity of the community dynamics of natural systems, we recommend using natural systems – and understanding the basic physiological features and ecological roles of the species within them – because they implicitly include realistic extinction process, trophic structures and spatial–temporal scales as a useful way of increasing the relevance of future BEF studies to conservation.
biological diversity, ecosystem functions, ecosystem services, extinction, spatial and temporal scales, species richness, trophic level
26-31
Peh, Kelvin S.-H.
0bd60207-dad8-43fb-a84a-a15e09b024cc
Lewis, Simon L.
0442a91d-93f1-48ee-aca3-1a4757f0c7fa
July 2012
Peh, Kelvin S.-H.
0bd60207-dad8-43fb-a84a-a15e09b024cc
Lewis, Simon L.
0442a91d-93f1-48ee-aca3-1a4757f0c7fa
Peh, Kelvin S.-H. and Lewis, Simon L.
(2012)
Conservation implications of recent advances in biodiversity–functioning research.
Biological Conservation, 151 (1), .
(doi:10.1016/j.biocon.2011.12.005).
Abstract
Studies have shown that increasing diversity has a positive influence on many ecosystem functions and services, for example, biomass productivity. However, most diversity–functioning studies have derived their conclusions (1) from considering only random species assemblages, (2) from small spatial scales – often micro- and mesocosm experiments, (3) from studying merely a single trophic level, and (4) studies from a small number of biomes dominate. Critics argue that these studies provide little basis to evaluate the consequences for biodiversity loss in the real world. Here we re-consider the latest research focusing on each limitation in turn to highlight the possible lessons for real-world conservation from recent biodiversity–ecosystem function (BEF) research. Tentative general lessons from recent research include: (1) the need to urgently forestall human-induced extinction (i.e., non-random extinction) over large areas, in order to avert large negative functional consequences which may be more pronounced at larger scales and (2) preserve relatively intact communities because biotic interactions across the multi-trophic levels may have a synergistic contribution to the overall functioning of a system. However, considering the complexity of the community dynamics of natural systems, we recommend using natural systems – and understanding the basic physiological features and ecological roles of the species within them – because they implicitly include realistic extinction process, trophic structures and spatial–temporal scales as a useful way of increasing the relevance of future BEF studies to conservation.
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Published date: July 2012
Keywords:
biological diversity, ecosystem functions, ecosystem services, extinction, spatial and temporal scales, species richness, trophic level
Organisations:
Centre for Biological Sciences
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Local EPrints ID: 352958
URI: http://eprints.soton.ac.uk/id/eprint/352958
ISSN: 0006-3207
PURE UUID: b172a502-b0f7-41e0-810c-b0e9dcda0fb2
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Date deposited: 21 May 2013 16:00
Last modified: 15 Mar 2024 03:44
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Author:
Simon L. Lewis
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